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23 April 2024

» arxiv » 1112.1701

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Three New Eclipsing White-dwarf - M-dwarf Binaries Discovered in a Search for Transiting Planets Around M-dwarfs
Nicholas M. Law ; Adam L. Kraus ; Rachel Street ; Benjamin J. Fulton ; Lynne A. Hillenbrand ; Avi Shporer ; Tim Lister ; Christoph Baranec ; Joshua S. Bloom ; Khanh Bui ; Mahesh P. Burse ; S. Bradley Cenko ; H. K. Das ; Jack. T. C. Davis ; Richard G. Dekany ; Alexei V. Filippenko ; Mansi M. Kasliwal ; S. R. Kulkarni ; Peter Nugent ; Eran O. Ofek ; Dovi Poznanski ; Robert M. Quimby ; A. N. Ramaprakash ; Reed Riddle ; Jeffrey M. Silverman ; Suresh Sivanandam ; Shriharsh Tendulkar ;
Date:	7 Dec 2011
Abstract:	We present three new eclipsing white-dwarf / M-dwarf binary systems discovered during a search for transiting planets around M-dwarfs. Unlike most known eclipsing systems of this type, the optical and infrared emission is dominated by the M-dwarf components, and the systems have optical colors and discovery light curves consistent with being Jupiter-radius transiting planets around early M-dwarfs. We detail the PTF/M-dwarf transiting planet survey, part of the Palomar Transient Factory (PTF). We present a Graphics Processing Unit (GPU)-based box-least-squares search for transits that runs approximately 8X faster than similar algorithms implemented on general purpose systems. For the discovered systems, we decompose low-resolution spectra of the systems into white-dwarf and M-dwarf components, and use radial velocity measurements and cooling models to estimate masses and radii for the white dwarfs. The systems are compact, with periods between 0.35 and 0.45 days and semimajor axes of approximately 2 solar radii (0.01 AU). We use the Robo-AO laser guide star adaptive optics system to tentatively identify one of the objects as a triple system. We also use high-cadence photometry to put an upper limit on the white dwarf radius of 0.025 solar radii (95% confidence) in one of the systems. We estimate that 0.08% (90% confidence) of M-dwarfs are in these short-period, post-common-envelope white-dwarf / M-dwarf binaries where the optical light is dominated by the M-dwarf. Similar eclipsing binary systems can have arbitrarily small eclipse depths in red bands and generate plausible small-planet-transit light curves. As such, these systems are a source of false positives for M-dwarf transiting planet searches. We present several ways to rapidly distinguish these binaries from transiting planet systems.
Source:	arXiv, 1112.1701
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